The impact of gradually replacing fossil fuel-powered vehicles with electric ones: A bi-objective optimisation approach

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In the last two decades, many cities imposed environmental regulations that mandate companies to stop using fuel-powered vehicles once or twice weekly depending on the air quality and their identification numbers. The regulation limits the companies ability to fulfil client demands. Many companies may adopt alternative strategies to overcome this constraint by replacing the stopped vehicles with electric units. However, this replacement impacts the fleet’s performance. In the present study, we analyse the impact on fleet’s performances by modelling the problem as a Pareto front degradation, when replacing conventional vehicles (CVs) with electric vehicles (EVs). To this end, we base our analysis on a visual inspection of the non-dominated fronts and a coverage measure. To obtain good quality non-dominated fronts, we improve a multi-objective evolutionary algorithm (MOEA/D) by introducing a novel, simple and effective post-processing stage applied to each non-dominated solution obtained from the MOEA/D. The analysis and computational experiments offer three main results: i) The post-processing algorithm improves almost every single non-dominated front generated by the MOEA/D. ii) Contrary to the expected results, the number of CVs to be replaced without affecting the fleet performance is large, between half and two-thirds of the total number of vehicles, iii) The proposed model here will help companies to find the appropriate number of CVs to be replaced without affecting their service quality.

论文关键词:Vehicle routing problem with time windows,Mix fleet,Electric vehicles,Conventional vehicles,Vehicle restriction programs

论文评审过程:Received 29 March 2021, Revised 7 December 2021, Accepted 11 January 2022, Available online 22 January 2022, Version of Record 29 January 2022.

论文官网地址:https://doi.org/10.1016/j.eswa.2022.116546